Received power level for tag processing prioritization

1. A method comprises: transmitting, by a radio frequency identification (RFID) reader, a series of RF signals to a plurality of RFID tags in a time sequence, wherein an initial RF signal of the series of RF signals is sent at an initial time, wherein the initial RF signal commands the plurality of RFID tags to remain silent when received signal strength of the initial RF signal corresponds to a power level greater than a first power level and wherein a next RF signal of the series of RF signals is sent after the initial time, wherein the next RF signal commands the plurality of tags to remain silent when received signal strength of the next RF signal corresponds to a power level greater than a second power level, and wherein the first power level is less than the second power level; receiving, by the RFID reader, an initial set of responses from an initial set of RFID tags of the plurality of RFID tags, wherein each RFID tag of the initial set of RFID tags received the initial RF signal at a received signal strength corresponding to the power level lower than the first power level; receiving, by the RFID reader, a next set of responses from a next set of RFID tags of the plurality of RFID tags, wherein each RFID tag of the next set of RFID tags received the next RF signal at a received strength corresponding to the power level lower than the second power level; determining, by the RFID reader, a set of core RFID tags from the initial and next set of RFID tags; and transmitting, by the RFID reader, a next series of RF signals, wherein the next series of RF signals are targeting responses from RFID tags within a range of the set of core RFID tags.

2. The method of claim 1 further comprises: receiving, by a first RFID tag of the plurality of RFID tags, the series of RF signals; determining, by the first RFID tag, power levels for each RF signal of the series of RF signals; and when the power level of one of the RF signals is less than the first power level: transmitting, by the first RFID tag, a response to the initial RF query signal.

3. The method of claim 2 further comprises: when the power level of the one of the RF signals is less than the second power level: transmitting, by the first RFID tag, a response to the next RF signal.

4. The method of claim 1 further comprises: receiving, by the RFID reader, another next set of responses from a another next set of RFID tags of the plurality of RFID tags, wherein each RFID tag of the another next set of RFID tags received another next RF signal of the series of RF signals at a received signal strength corresponding to a power level lower than a third power level, wherein the another next RF signal commands the plurality of tags to remain silent when the received signal strength of the another next RF signal corresponds to a power level greater than the third power level, wherein the third power level is greater than the first and second power levels; and determining, by the RFID reader, the set of core RFID tags from the initial, the next, and the another next set of RFID tags.

5. The method of claim 1 further comprises: determining, by the RFID reader, that RFID tags of the initial set of RFID tags are physically closer to the RFID reader than RFID tags of the next set of RFID tags when the first power level is less than the second power level.

6. The method of claim 1 further comprises: adjusting, by the RFID reader, a degree of correspondence of the received signal strength of the initial RF signal corresponding to the first power level such that the initial set of RFID tags includes a single RFID tag.

7. The method of claim 1 further comprises: receiving a response from the initial or the next set of responses, wherein the response includes one or more of: a received signal strength indication, an indication of an environmental condition, and an identifier of an RFID tag.

8. A radio frequency identification (RFID) reader comprises: a transmitter operable to transmit a series of RF signals to a plurality of RFID tags in a time sequence, wherein an initial RF signal of the series of RF signals is sent at an initial time, wherein the initial RF signal commands the plurality of RFID tags to remain silent when received signal strength of the initial RF signal corresponds to a power level greater than a first power level, and wherein a next RF signal of the series of RF signals is sent after the initial time, wherein the next RF signal commands the plurality of tags to remain silent when received signal strength of the next RF signal corresponds to a power level greater than a second power level, and wherein the first power level is less than the second power level; a receiver operable to: receive an initial set of responses from an initial set of RFID tags of the plurality of RFID tags, wherein each RFID tag of the initial set of RFID tags received the initial RF signal at a received signal strength corresponding to the power level lower than the first power level; and receive a next set of responses from a next set of RFID tags of the plurality of RFID tags, wherein each RFID tag of the next set of RFID tags received the next RF signal at a received strength corresponding to the power level lower than the second power level; and a control circuit operable to: generate the initial and next RF signals; process the initial and next set of response; determine a set of core RFID tags from the initial and next set of RFID tags; and generate a next series of RF signals, wherein the next series of RF signals are targeting responses from RFID tags within a range of the set of core RFID tags, and wherein the transmitter is further operable to: transmit the next series of RF signals.

9. The RFID reader of claim 8 further comprises: the receiver is further operable to: receive another next set of responses from another next set of RFID tags of the plurality of RFID tags, wherein each RFID tag of the another next set of RFID tags received another next RF signal of the series of RF signals at a received signal strength corresponding to a power level lower than a third power level, wherein the another next RF signal commands the plurality of tags to remain silent when the received signal strength of the another next RF signal corresponds to a power level greater than the third power level; and the control circuit is further operable to: generate the another next RF signal; process the another next set of responses; and determine the set of core RFID tags from the initial, the next, and the another next set of RFID tags.

10. The RFID reader of claim 8 , wherein the control circuit is further operable to: determine that RFID tags of the initial set of RFID tags are physically closer to the RFID reader than RFID tags of the next set of RFID tags when the first power level is less than the second power level.

11. The RFID reader of claim 8 , wherein the control circuit is further operable to: adjust a degree of correspondence of the received signal strength of the initial RF signal corresponding to the first power level such that the initial set of RFID tags includes a single RFID tag.

12. The RFID reader of claim 8 , wherein the control circuit is further operable to: interpret a response from the initial or the next set of responses as one or more of: a received signal strength indication, an indication of an environmental condition, and an identifier of an RFID tag.

13. A radio frequency identification (RFID) tag comprises: a receiver operable to receive a series of RF signals to a plurality of RFID tags in a time sequence, wherein an initial RF signal of the series of RF signals is sent at an initial time, wherein the initial RF signal commands the plurality of RFID tags to remain silent when received signal strength of the initial RF signal corresponds to a power level greater than a first power level, and wherein a next RF signal of the series of RF signals is sent after the initial time, wherein the next RF signal commands the plurality of tags to remain silent when received signal strength of the next RF signal corresponds to a power level greater than a second power level, and wherein the first power level is less than the second power level; a power level detection circuit operable to determine power levels for each RF signal of the series of RF signals; a control circuit operable to: when the power level of one of the RF signals of the series of RF signals is lower than the first power level: generate a response to the initial RF signal and a transmitter operable to transmit a response RF signal that includes the response.

14. The RFID tag of claim 13 further comprises: the control circuit is further operable to: when the power level of the one of the RF signals of the series of RF signals is lower than the second power level: generate a second response to the next RF signal and the transmitter is further operable to transmit a second response RF signal that includes the second response.

15. The RFID tag of claim 13 , wherein the control circuit is further operable to: generate the response to represent one of: a received signal strength indication, an indication of an environmental condition, and an identifier of an RFID tag.